Reprint

Hydrological Hazard: Analysis and Prevention

Edited by
November 2018
218 pages
  • ISBN978-3-03897-374-4 (Paperback)
  • ISBN978-3-03897-375-1 (PDF)

This is a Reprint of the Special Issue Hydrological Hazard: Analysis and Prevention that was published in

Environmental & Earth Sciences
Summary

Due to the considerable impacts of hydrological hazards on water resources, natural environments, and human activities, as well as on human health and safety, climate variability and climate change have become key issues for the research community. In fact, a warmer climate, with its heightened climate variability, will increase the risk of hydrological extreme phenomena, such as droughts and floods. The Special Issue “Hydrological Hazard: Analysis and Prevention” presents a collection of scientific contributions that provides a sample of the state-of-the-art and forefront research in this field. In particular, innovative modelling methods for flood hazards, regional flood, and drought analysis and the use of satellite and climate data for drought analysis were the main research and practice targets that the papers published in this Special Issue aimed to address.

Format
  • Paperback
License and Copyright
© 2019 by the authors; CC BY license
Keywords
design storm; hydraulic modelling; flood hazards; Glinščica catchment; hydrological modelling; Huff curves; HEC-RAS; urban topography; flood modeling; Saint Venant equations; laboratory experiment; buildings; roughness coefficient; landslide forecasting; threshold; hydrological model; genetic algorithms; Calabria; Campania; drought; SPI; trend; New Zealand; flood modelling; Agricultural Small Catchment; SCS-CN; Green-Ampt; Senegal; seasonal precipitation; seasonal temperature; correlation analysis; floods; urban river basins; Shift-Target approach; hydrological simulations; probabilistic forecasts; natural hazards; weather disasters; hydrometeorological fatalities; flooding; tornadoes; extreme temperatures; hydrology; NEXRAD; remote sensing; GSSHA; flooding; GPM; flood; precipitation; water level; discharge; General Circulation Models (GCM); MIKE 21 FM model; non-linear model; seasonal rainfall; climate drivers; SEIO, ENSO; rainfall prediction; GIS; tool; flood risk analysis; transboundary flood risk assessment; flood risk management; effects of measures; effectiveness of measures; Rhine; ICPR; International Commission for the Protection of the Rhine; ICPR FloRiAn; natural hazards; hydrometeorological disasters; HAZUS; SHELDUS; Texas; property damage; economic loss; catchment; climate; drought; flood; forecast; hazards; landslide; modelling; precipitation; temperature

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